refactor

2021-10-05 16:11:24 +03:00 · 2021-10-05 16:11:24 +03:00 · 1fd4158840
parent 32f8a3dcc6
commit 1fd4158840
22 changed files with 175 additions and 574 deletions
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -18,14 +18,12 @@ set(CMAKE_CXX_STANDARD 17)
 set(SOURCE_FILES
  src/regular/RegularTree.cpp
  src/regular/RegularTreeNode.cpp
-  src/NFA/NFATree.cpp
+        src/NFA/NFAGraph.cpp
  src/NFA/NFATreeVertex.cpp
  src/converters/RegularToNFA.cpp
  src/converters/NFAToDFA.cpp
  src/DFA/DFAGraph.cpp
  src/DFA/DFAGraphVertex.cpp
  # src/FDFA/FDFAGraph.cpp
  # src/FDFA/FDFAGraphVertex.cpp
  src/converters/DFAToFDFA.cpp
  src/converters/DFAToMinDFA.cpp
  src/converters/DFAToRegular.cpp
--- a/include/FDFA/FDFAGraph.hpp
+++ b/include/FDFA/FDFAGraph.hpp
@ -1,67 +0,0 @@
 #pragma once
 #include <map>
 #include <vector>
 #include <set>
 #include <memory>
 namespace FDFA {
 class FDFAGraph {
 public:
  class Vertex {
    public:
     Vertex(FDFAGraph* owner);
     bool IsFinal() const;
     bool IsStart() const;
     size_t GetNumber() const;
     const std::map<char, size_t>& GetTransitions() const;
     const std::map<char, size_t>& GetBackTransitions() const;
     void AddEdge(char, size_t);
     void RemoveEdge(char);
     void SetOwner(FDFAGraph* owner);
     void SetFinal(bool status);
     void SetStart(bool status);
    private:
     FDFAGraph* owner_;
     std::map<char, size_t> transitions_;
     std::map<char, size_t> back_transitions_;
     size_t number_;
     bool is_final_ = false;
     bool is_start_ = false;
     friend class FDFAGraph;
  };
  FDFAGraph() = default;
  FDFAGraph(const FDFAGraph&) = delete;
  FDFAGraph(FDFAGraph&&) = default;
  FDFAGraph& operator=(const FDFAGraph&) = delete;
  FDFAGraph& operator=(FDFAGraph&&) = default;
  size_t AddNewVertex();
  void AddFinalVertex(size_t number);
  void AddStartVertex(size_t number);
  void RemoveVertex(size_t number);
  void RemoveFinalVertex(size_t number);
  void RemoveStartVertex(size_t number);
  std::shared_ptr<Vertex> GetVertex(size_t number);
  size_t GetCountVertexes() const;
  const std::vector<size_t>& GetFinalVertexes() const;
  const std::vector<size_t>& GetStartVertexes() const;
  void Print() const;
  bool Accepted(const std::string&) const;
 private:
  size_t count_vertexes_ = 0;
  std::map<size_t, std::shared_ptr<Vertex>> vertexes_;
  std::vector<size_t> final_vertexes_;
  std::vector<size_t> start_vertexes_;
 };
 }
--- a/include/NFA/NFAGraph.hpp
+++ b/include/NFA/NFAGraph.hpp
@ -6,11 +6,11 @@
 #include <memory>
 namespace NFA {
-class NFATree {
+class NFAGraph {
 public:
  class Vertex {
    public:
-     Vertex(NFATree* owner);
+     Vertex(NFAGraph* owner);
     bool IsFinal() const;
     bool IsStart() const;
@ -21,11 +21,11 @@ class NFATree {
     void AddEdge(char, size_t);
     void RemoveEdge(char, size_t);
-     void SetOwner(NFATree* owner);
+     void SetOwner(NFAGraph* owner);
     void SetFinal(bool status);
     void SetStart(bool status);
    private:
-     NFATree* owner_;
+     NFAGraph* owner_;
     std::map<char, std::set<size_t>> transitions_;
     std::map<char, std::set<size_t>> back_transitions_;
@ -33,15 +33,15 @@ class NFATree {
     bool is_final_ = false;
     bool is_start_ = false;
-     friend class NFATree;
+     friend class NFAGraph;
  };
-  NFATree() = default;
+  NFAGraph() = default;
-  NFATree(const NFATree&) = delete;
+  NFAGraph(const NFAGraph&) = delete;
-  NFATree(NFATree&&);
+  NFAGraph(NFAGraph&&);
-  NFATree& operator=(const NFATree&) = delete;
+  NFAGraph& operator=(const NFAGraph&) = delete;
-  NFATree& operator=(NFATree&&);
+  NFAGraph& operator=(NFAGraph&&);
  size_t AddNewVertex();
  void AddFinalVertex(size_t number);
@ -51,7 +51,7 @@ class NFATree {
  void RemoveFinalVertex(size_t number);
  void RemoveStartVertex(size_t number);
-  void Composition(NFATree&&,
+  void Composition(NFAGraph&&,
                   std::vector<size_t> start_vertexes,
                   std::vector<size_t> final_vertexes);
--- a/include/converters/DFAToFDFA.hpp
+++ b/include/converters/DFAToFDFA.hpp
@ -1,10 +1,7 @@
 #pragma once
 #include "DFA/DFAGraph.hpp"
 #include "FDFA/FDFAGraph.hpp"
 namespace converters {
 using namespace DFA;
 using namespace FDFA;
 DFAGraph DFAGraphToFDFAGraph(DFAGraph&&, const std::vector<char>& alphabet);
 // FDFAGraph DFAGraphToFDFAGraph(DFAGraph&&, const std::vector<char>& alphabet);
 }
--- a/include/converters/DFAToMinDFA.hpp
+++ b/include/converters/DFAToMinDFA.hpp
@ -3,5 +3,5 @@
 namespace converters {
 using namespace DFA;
-DFAGraph DFAToMinDFA(DFAGraph&&);
+DFAGraph DFAGraphToMinDFAGraph(DFAGraph&&);
 }
--- a/include/converters/NFAToDFA.hpp
+++ b/include/converters/NFAToDFA.hpp
@ -1,13 +1,13 @@
 #pragma once
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 #include "DFA/DFAGraph.hpp"
 namespace converters {
 using namespace NFA;
 using namespace DFA;
-NFATree AddAllEpsilonTransitions(NFATree&&);
+NFAGraph AddAllEpsilonTransitions(NFAGraph&&);
-NFATree AddAllPossibleStartFilnal(NFATree&&);
+NFAGraph AddAllPossibleStartFinal(NFAGraph&&);
-NFATree DeleteEpsilonTransitions(NFATree&&);
+NFAGraph DeleteEpsilonTransitions(NFAGraph&&);
-NFATree DeleteTransitionsByOneLetter(NFATree&&);
+NFAGraph DeleteTransitionsByOneLetter(NFAGraph&&);
-DFAGraph NFATreeToDFAGraph(NFATree&&);
+DFAGraph NFAGraphToDFAGraph(NFAGraph&&);
 }
--- a/include/converters/RegularToNFA.hpp
+++ b/include/converters/RegularToNFA.hpp
@ -1,10 +1,10 @@
 #pragma once
 #include "regular/RegularTree.hpp"
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 namespace converters {
 using namespace NFA;
 using namespace regular;
-NFATree RegularToNFA(RegularTree&&);
+NFAGraph RegularToNFAGraph(RegularTree&&);
 }
--- a/include/regular/RegularTree.hpp
+++ b/include/regular/RegularTree.hpp
@ -1,5 +1,4 @@
 #pragma once
 #include <variant>
 #include <vector>
 #include <memory>
 #include <string>
--- a/src/DFA/DFAGraphVertex.cpp
+++ b/src/DFA/DFAGraphVertex.cpp
@ -1,5 +1,4 @@
 #include "DFA/DFAGraph.hpp"
 #include <iostream>
 using Vertex = DFA::DFAGraph::Vertex;
--- a/src/FDFA/FDFAGraph.cpp
+++ b/src/FDFA/FDFAGraph.cpp
@ -1,98 +0,0 @@
 #include "FDFA/FDFAGraph.hpp"
 #include <algorithm>
 #include <iostream>
 namespace FDFA {
 size_t FDFAGraph::AddNewVertex() {
  vertexes_[count_vertexes_] = std::make_shared<Vertex>(this);
  vertexes_[count_vertexes_]->number_ = count_vertexes_;
  return count_vertexes_++;
 }
 void FDFAGraph::AddFinalVertex(size_t number) {
  if (!vertexes_[number]->is_final_) {
    vertexes_[number]->is_final_ = true;
    final_vertexes_.push_back(number);
  }
 }
 void FDFAGraph::AddStartVertex(size_t number) {
  if (!vertexes_[number]->is_start_) {
    vertexes_[number]->is_start_ = true;
    start_vertexes_.push_back(number);
  }
 }
 void FDFAGraph::RemoveVertex(size_t number) {
  RemoveFinalVertex(number);
  RemoveStartVertex(number);
  vertexes_.erase(number);
 }
 void FDFAGraph::RemoveFinalVertex(size_t number) {
  for (size_t i = 0; i < final_vertexes_.size(); ++i) {
    if (final_vertexes_[i] == number) {
      vertexes_[number]->is_final_ = false;
      std::swap(final_vertexes_[i], final_vertexes_.back());
      final_vertexes_.pop_back();
      break;
    }
  }
 }
 void FDFAGraph::RemoveStartVertex(size_t number) {
  for (size_t i = 0; i < start_vertexes_.size(); ++i) {
    if (start_vertexes_[i] == number) {
      vertexes_[number]->is_start_ = false;
      std::swap(start_vertexes_[i], start_vertexes_.back());
      start_vertexes_.pop_back();
      break;
    }
  }
 }
 std::shared_ptr<FDFAGraph::Vertex> FDFAGraph::GetVertex(size_t number) {
  if (vertexes_.count(number))
    return vertexes_[number];
  return nullptr;
 }
 size_t FDFAGraph::GetCountVertexes() const {
  return count_vertexes_;
 }
 const std::vector<size_t>& FDFAGraph::GetFinalVertexes() const {
  return final_vertexes_;
 }
 const std::vector<size_t>& FDFAGraph::GetStartVertexes() const {
  return start_vertexes_;
 }
 void FDFAGraph::Print() const {
  for (auto i: vertexes_) {
    std::cout << i.second->number_ << " " << "f-" << i.second->is_final_ << " s-" <<
        i.second->is_start_ << std::endl;
  }
  for (auto& i: vertexes_) {
    for (auto& j: i.second->transitions_) {
      std::cout << i.second->number_ << "->" << j.second << " <" << j.first << ">" <<
          std::endl;
    }
  }
  std::cout << std::endl;
 }
 bool FDFAGraph::Accepted(const std::string& str) const {
  std::shared_ptr<const Vertex> current = vertexes_.at(start_vertexes_[0]);
  for (auto i: str) {
    if (current->GetTransitions().count(i)) {
      current = vertexes_.at(current->GetTransitions().at(i));
    } else {
      return false;
    }
  }
  return current->IsFinal();
 }
 }
--- a/src/FDFA/FDFAGraphVertex.cpp
+++ b/src/FDFA/FDFAGraphVertex.cpp
@ -1,58 +0,0 @@
 #include "FDFA/FDFAGraph.hpp"
 #include <iostream>
 using Vertex = FDFA::FDFAGraph::Vertex;
 Vertex::Vertex(FDFAGraph* owner) : owner_(owner) {}
 bool Vertex::IsFinal() const {
  return is_final_;
 }
 bool Vertex::IsStart() const {
  return is_start_;
 }
 size_t Vertex::GetNumber() const {
  return number_;
 }
 const std::map<char, size_t>& Vertex::GetTransitions() const {
  return transitions_;
 }
 const std::map<char, size_t>& Vertex::GetBackTransitions() const {
  return back_transitions_;
 }
 void Vertex::AddEdge(char symbol, size_t number) {
  transitions_[symbol] = number;
  owner_->GetVertex(number)->back_transitions_[symbol] = number_;
 }
 void Vertex::RemoveEdge(char symbol) {
  owner_->GetVertex(transitions_[symbol])->back_transitions_.erase(symbol);
  transitions_.erase(symbol);
 }
 void Vertex::SetOwner(FDFAGraph* owner) {
  owner_ = owner;
 }
 void Vertex::SetFinal(bool status) {
  if (status != is_final_) {
    if (status)
      owner_->AddFinalVertex(number_);
    else
      owner_->RemoveFinalVertex(number_);
  }   
 }
 void Vertex::SetStart(bool status) {
  if (status != is_start_) {
    if (status)
      owner_->AddStartVertex(number_);
    else
      owner_->RemoveStartVertex(number_);
  }   
 }
--- a/src/NFA/NFAGraph.cpp
+++ b/src/NFA/NFAGraph.cpp
@ -1,9 +1,9 @@
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 #include <algorithm>
 #include <iostream>
 namespace NFA {
-NFATree::NFATree(NFATree&& another) {
+NFAGraph::NFAGraph(NFAGraph&& another) {
  std::swap(count_vertexes_, another.count_vertexes_);
  std::swap(vertexes_, another.vertexes_);
  std::swap(final_vertexes_, another.final_vertexes_);
@ -15,7 +15,7 @@ NFATree::NFATree(NFATree&& another) {
    i.second->owner_ = &another;
 }
-NFATree& NFATree::operator=(NFATree&& another) {
+NFAGraph& NFAGraph::operator=(NFAGraph&& another) {
  std::swap(count_vertexes_, another.count_vertexes_);
  std::swap(vertexes_, another.vertexes_);
  std::swap(final_vertexes_, another.final_vertexes_);
@ -28,33 +28,33 @@ NFATree& NFATree::operator=(NFATree&& another) {
  return *this;
 }
-size_t NFATree::AddNewVertex() {
+size_t NFAGraph::AddNewVertex() {
  vertexes_[count_vertexes_] = std::make_shared<Vertex>(this);
  vertexes_[count_vertexes_]->number_ = count_vertexes_;
  return count_vertexes_++;
 }
-void NFATree::AddFinalVertex(size_t number) {
+void NFAGraph::AddFinalVertex(size_t number) {
  if (!vertexes_[number]->is_final_) {
    vertexes_[number]->is_final_ = true;
    final_vertexes_.push_back(number);
  }
 }
-void NFATree::AddStartVertex(size_t number) {
+void NFAGraph::AddStartVertex(size_t number) {
  if (!vertexes_[number]->is_start_) {
    vertexes_[number]->is_start_ = true;
    start_vertexes_.push_back(number);
  }
 }
-void NFATree::RemoveVertex(size_t number) {
+void NFAGraph::RemoveVertex(size_t number) {
  RemoveFinalVertex(number);
  RemoveStartVertex(number);
  vertexes_.erase(number);
 }
-void NFATree::RemoveFinalVertex(size_t number) {
+void NFAGraph::RemoveFinalVertex(size_t number) {
  for (size_t i = 0; i < final_vertexes_.size(); ++i) {
    if (final_vertexes_[i] == number) {
      vertexes_[number]->is_final_ = false;
@ -65,7 +65,7 @@ void NFATree::RemoveFinalVertex(size_t number) {
  }
 }
-void NFATree::RemoveStartVertex(size_t number) {
+void NFAGraph::RemoveStartVertex(size_t number) {
  for (size_t i = 0; i < start_vertexes_.size(); ++i) {
    if (start_vertexes_[i] == number) {
      vertexes_[number]->is_start_ = false;
@ -76,15 +76,15 @@ void NFATree::RemoveStartVertex(size_t number) {
  }
 }
-void NFATree::Composition(NFATree&& tree,
+void NFAGraph::Composition(NFAGraph&& nfa_graph,
                          std::vector<size_t> start_vertexes,
                          std::vector<size_t> final_vertexes) {
-  auto add_final_vertexes = tree.final_vertexes_;
+  auto add_final_vertexes = nfa_graph.final_vertexes_;
-  auto add_start_vertexes = tree.start_vertexes_;
+  auto add_start_vertexes = nfa_graph.start_vertexes_;
  size_t new_count_vertexes = count_vertexes_;
-  for (auto& i: tree.vertexes_) {
+  for (auto& i: nfa_graph.vertexes_) {
    new_count_vertexes = std::max(new_count_vertexes, i.first + count_vertexes_ + 1);
    i.second->number_ += count_vertexes_;
    std::map<char, std::set<size_t>> new_transitions;
@ -135,25 +135,25 @@ void NFATree::Composition(NFATree&& tree,
  }
 }
-std::shared_ptr<NFATree::Vertex> NFATree::GetVertex(size_t number) {
+std::shared_ptr<NFAGraph::Vertex> NFAGraph::GetVertex(size_t number) {
  if (vertexes_.count(number))
    return vertexes_[number];
  return nullptr;
 }
-size_t NFATree::GetCountVertexes() const {
+size_t NFAGraph::GetCountVertexes() const {
  return count_vertexes_;
 }
-const std::vector<size_t>& NFATree::GetFinalVertexes() const {
+const std::vector<size_t>& NFAGraph::GetFinalVertexes() const {
  return final_vertexes_;
 }
-const std::vector<size_t>& NFATree::GetStartVertexes() const {
+const std::vector<size_t>& NFAGraph::GetStartVertexes() const {
  return start_vertexes_;
 }
-void NFATree::Print() const {
+void NFAGraph::Print() const {
  for (auto i: vertexes_) {
    std::cout << i.second->number_ << " " << "f-" << i.second->is_final_ << " s-" <<
        i.second->is_start_ << std::endl;
--- a/src/NFA/NFATreeVertex.cpp
+++ b/src/NFA/NFATreeVertex.cpp
@ -1,9 +1,8 @@
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 #include <iostream>
-using Vertex = NFA::NFATree::Vertex;
+using Vertex = NFA::NFAGraph::Vertex;
-Vertex::Vertex(NFATree* owner) : owner_(owner) {}
+Vertex::Vertex(NFAGraph* owner) : owner_(owner) {}
 bool Vertex::IsFinal() const {
  return is_final_;
@ -40,7 +39,7 @@ void Vertex::RemoveEdge(char symbol, size_t number) {
    owner_->GetVertex(number)->back_transitions_.erase(symbol);
 }
-void Vertex::SetOwner(NFATree* owner) {
+void Vertex::SetOwner(NFAGraph* owner) {
  owner_ = owner;
 }
--- a/src/converters/DFAToFDFA.cpp
+++ b/src/converters/DFAToFDFA.cpp
@ -43,48 +43,4 @@ DFAGraph DFAGraphToFDFAGraph(DFAGraph&& graph, const std::vector<char>& alphabet
  return result;
 }
 /*
 FDFAGraph DFAGraphToFDFAGraph(DFAGraph&& graph, const std::vector<char>& alphabet) {
  FDFAGraph result;
  const int n = graph.GetCountVertexes();
  std::map<size_t, size_t> number_vertex_in_DFA;
  for (int i = 0; i < n; ++i) {
    if (!graph.GetVertex(i)) continue;
    number_vertex_in_DFA[i] = result.AddNewVertex();
  }
  for (int i = 0; i < n; ++i) {
    if (!graph.GetVertex(i)) continue;
    if (graph.GetVertex(i)->IsFinal())
      result.GetVertex(number_vertex_in_DFA[i])->SetFinal(true);
    if (graph.GetVertex(i)->IsStart())
      result.GetVertex(number_vertex_in_DFA[i])->SetStart(true);
    const auto& transitions = graph.GetVertex(i)->GetTransitions();
    for (const auto& t: transitions) {
      result.GetVertex(number_vertex_in_DFA[i])->AddEdge(t.first, t.second);      
    }
  }
  size_t drain = result.AddNewVertex();
  for (int i = 0; i < n; ++i) {
    const auto& transitions = graph.GetVertex(i)->GetTransitions();
    for (char j: alphabet) {
      if (!transitions.count(j)) {
        result.GetVertex(i)->AddEdge(j, drain);
      }
    }
  }
  if (result.GetVertex(drain)->GetBackTransitions().size() == 0) {
    result.RemoveVertex(drain);
  } else {
    for (char j: alphabet) {
      result.GetVertex(drain)->AddEdge(j, drain);
    }
  }
  return result;
 }
 */
 }
--- a/src/converters/DFAToMinDFA.cpp
+++ b/src/converters/DFAToMinDFA.cpp
@ -1,22 +1,20 @@
 #include "converters/DFAToMinDFA.hpp"
 #include <cstdlib>
 #include <iostream>
 namespace converters {
-DFAGraph DFAToMinDFA(DFAGraph&& graph) {
+DFAGraph DFAGraphToMinDFAGraph(DFAGraph&& graph) {
  const int n = graph.GetCountVertexes();
  DFAGraph result;
  std::vector<char> alphabet;
  {
-    std::set<char> salphabet;
+    std::set<char> set_alphabet;
    for (int i = 0; i < n; ++i) {
      for (auto i: graph.GetVertex(i)->GetTransitions()) {
-        salphabet.insert(i.first);
+        set_alphabet.insert(i.first);
      }
    }
-    alphabet = std::vector<char>(salphabet.begin(), salphabet.end());
+    alphabet = std::vector<char>(set_alphabet.begin(), set_alphabet.end());
  }
  std::vector<std::vector<std::vector<size_t>>> table(n,
--- a/src/converters/DFAToRegular.cpp
+++ b/src/converters/DFAToRegular.cpp
@ -1,6 +1,4 @@
 #include "converters/DFAToRegular.hpp"
 #include <cstdlib>
 #include <iostream>
 namespace converters {
 std::string DFAGraphToRegular(DFAGraph&& graph) {
--- a/src/converters/NFAToDFA.cpp
+++ b/src/converters/NFAToDFA.cpp
@ -1,135 +1,22 @@
 #include "converters/NFAToDFA.hpp"
 #include <functional>
 #include <iostream>
 #include <queue>
 #include <stdexcept>
 namespace converters {
-/*
+NFAGraph AddAllEpsilonTransitions(NFAGraph&& nfa_graph) {
-OLD version
+  const int n = nfa_graph.GetCountVertexes();
 NFATree AddAllEpsilonTransitions(NFATree&& tree) {
  // Algorithm from 2-sat
  const int n = tree.GetCountVertexes();
  std::vector<bool> used(n, false);
  std::vector<int> component(n, -1);
  std::vector<int> order;
  std::function<void(int)> dfs_order = [&tree, &used, &order, &dfs_order](int v) -> void {
    used[v] = true;
    const auto& transitions = tree.GetVertex(v)->GetTransitions();
    if (transitions.count(' ')) {
      const auto& s = transitions.at(' ');
      for (auto i: s) {
        if (!used[i]) {
          dfs_order(i);
        }
      }
    }
    order.push_back(v);
  };
  std::function<void(int, int)> dfs_component = [&tree, &component,
      &dfs_component](int v, int c) -> void {
    component[v] = c;
    const auto& transitions = tree.GetVertex(v)->GetBackTransitions();
    if (transitions.count(' ')) {
      const auto& s = transitions.at(' ');
      for (auto i: s) {
        if (component[i] == -1) {
          dfs_component(i, c);
        }
      }
    }
  };
  for (int i = 0; i < n; ++i) {
    if (!used[i] && tree.GetVertex(i)) {
      dfs_order(i);
    }
  }
  int current_component = 0;
  for (int i = 0; i < n; ++i) {
    int v = order[n - i - 1];
    if (component[v] == -1 && tree.GetVertex(i)) {
      dfs_component(v, current_component++);
    }
  }
  std::set<std::pair<int, int>> connectivity_components;
  used.assign(n, false);
  std::vector<std::set<int>> connectivity_from(current_component);
  std::function<void(int)> dfs_connectivity = [&tree, &component,
      &used, &dfs_connectivity, &connectivity_from](int v) -> void {
    used[v] = true;
    const auto& transitions = tree.GetVertex(v)->GetTransitions();
    if (transitions.count(' ')) {
      const auto& s = transitions.at(' ');
      for (auto i: s) {
        if (!used[i]) {
          dfs_connectivity(i);
        }
        if (component[v] != component[i]) {
          connectivity_from[component[v]].insert(connectivity_from[component[i]].begin(),
                                                 connectivity_from[component[i]].end());
          connectivity_from[component[v]].insert(component[i]);
        } 
      }
    }
  };
  for (int i = 0; i < n; ++i) {
    if (!tree.GetVertex(i)) continue;
    connectivity_components.emplace(component[i], component[i]);
    if (!used[i]) {
      dfs_connectivity(i);
    }
    for (int j: connectivity_from[component[i]]) {
      std::cout << i << " " << j << std::endl;
      connectivity_components.emplace(component[i], j);
    }
  }
  for (int i = 0; i < n; ++i) {
    std::cout << component[i] << " ";
  }
  std::cout << std::endl;
  for (int i: connectivity_from[1]) {
    std::cout << i << " ";
  }
  std::cout << std::endl;
  for (int i = 0; i < n; ++i) {
    for (int j = 0; j < n; ++j) {
      if (i == j) continue;
      if (connectivity_components.count(std::make_pair(component[i], component[j]))) {
        tree.GetVertex(i)->AddEdge(' ', j);
      }
    }
  }
  return std::move(tree);
 }
 */
 NFATree AddAllEpsilonTransitions(NFATree&& tree) {
  const int n = tree.GetCountVertexes();
  std::vector<bool> used(n, false);
-  std::function<void(int, int)> dfs = [&tree, &used, &dfs](int u, int v) -> void {
+  std::function<void(int, int)> dfs = [&nfa_graph, &used, &dfs](int u, int v) -> void {
    used[v] = true;
-    const auto& transitions = tree.GetVertex(v)->GetTransitions();
+    const auto& transitions = nfa_graph.GetVertex(v)->GetTransitions();
    if (transitions.count(' ')) {
      const auto& s = transitions.at(' ');
      for (auto i: s) {
        if (!used[i]) {
          if (u != i)
-            tree.GetVertex(u)->AddEdge(' ', i);
+            nfa_graph.GetVertex(u)->AddEdge(' ', i);
          dfs(u, i);
        }
      }
@ -137,62 +24,62 @@ NFATree AddAllEpsilonTransitions(NFATree&& tree) {
  };
  for (int i = 0; i < n; ++i) {
-    if (!tree.GetVertex(i)) continue;
+    if (!nfa_graph.GetVertex(i)) continue;
    used.assign(n, false);
    dfs(i, i);
  }
-  return std::move(tree);
+  return std::move(nfa_graph);
 }
-NFATree AddAllPossibleStartFilnal(NFATree&& tree) {
+NFAGraph AddAllPossibleStartFinal(NFAGraph&& nfa_graph) {
-  if (tree.GetStartVertexes().size() != 1) {
+  if (nfa_graph.GetStartVertexes().size() != 1) {
-    size_t start_vertex = tree.AddNewVertex();
+    size_t start_vertex = nfa_graph.AddNewVertex();
-    for (auto v: tree.GetStartVertexes()) {
+    for (auto v: nfa_graph.GetStartVertexes()) {
-      tree.GetVertex(start_vertex)->AddEdge(' ', v);
+      nfa_graph.GetVertex(start_vertex)->AddEdge(' ', v);
    }
  }
-  for (const auto& v: tree.GetFinalVertexes()) {
+  for (const auto& v: nfa_graph.GetFinalVertexes()) {
-    const auto& transitions = tree.GetVertex(v)->GetBackTransitions();
+    const auto& transitions = nfa_graph.GetVertex(v)->GetBackTransitions();
    if (transitions.count(' ')) {
      const auto& s = transitions.at(' ');
      for (auto i: s) {
-        tree.GetVertex(i)->SetFinal(true);
+        nfa_graph.GetVertex(i)->SetFinal(true);
      }
    } 
  }
-  return std::move(tree);
+  return std::move(nfa_graph);
 }
-NFATree DeleteEpsilonTransitions(NFATree&& tree) {
+NFAGraph DeleteEpsilonTransitions(NFAGraph&& nfa_graph) {
-  const int n = tree.GetCountVertexes();
+  const int n = nfa_graph.GetCountVertexes();
  for (int v = 0; v < n; ++v) {
-    if (!tree.GetVertex(v)) continue;
+    if (!nfa_graph.GetVertex(v)) continue;
-    const auto& transitions = tree.GetVertex(v)->GetTransitions();
+    const auto& transitions = nfa_graph.GetVertex(v)->GetTransitions();
    if (transitions.count(' ')) {
      auto s = transitions.at(' ');
      for (auto u: s) {
-        for (auto& i: tree.GetVertex(u)->GetTransitions()) {
+        for (auto& i: nfa_graph.GetVertex(u)->GetTransitions()) {
          if (i.first == ' ') continue;
          for (auto t: i.second) {
-            tree.GetVertex(v)->AddEdge(i.first, t);
+            nfa_graph.GetVertex(v)->AddEdge(i.first, t);
          } 
        }
      }
      for (auto u: s) {
-        tree.GetVertex(v)->RemoveEdge(' ', u);
+        nfa_graph.GetVertex(v)->RemoveEdge(' ', u);
      }   
    }
  }
-  return std::move(tree);
+  return std::move(nfa_graph);
 }
-NFATree DeleteTransitionsByOneLetter(NFATree&& tree) {
+NFAGraph DeleteTransitionsByOneLetter(NFAGraph&& nfa_graph) {
-  const int n = tree.GetCountVertexes();
+  const int n = nfa_graph.GetCountVertexes();
-  NFATree result_tree;
+  NFAGraph result_tree;
  std::map<std::pair<std::set<size_t>, char>, std::set<size_t>> transitions;
  std::map<std::set<size_t>, size_t> number_vertex_in_result_tree;
@ -200,14 +87,14 @@ NFATree DeleteTransitionsByOneLetter(NFATree&& tree) {
  std::set<char> alphabet;
  for (int i = 0; i < n; ++i) {
-    if (!tree.GetVertex(i)) continue;
+    if (!nfa_graph.GetVertex(i)) continue;
-    for (const auto& j: tree.GetVertex(i)->GetTransitions()) {
+    for (const auto& j: nfa_graph.GetVertex(i)->GetTransitions()) {
      if (j.second.size() > 0)
        alphabet.insert(j.first);
    }
  }
-  for (auto i: tree.GetStartVertexes()) {
+  for (auto i: nfa_graph.GetStartVertexes()) {
    queue.push({i});
    number_vertex_in_result_tree[{i}] = result_tree.AddNewVertex();
  }
@ -219,7 +106,7 @@ NFATree DeleteTransitionsByOneLetter(NFATree&& tree) {
    for (auto symbol: alphabet) {
      std::set<size_t> result;
      for (auto v: current) {
-        const auto& transitions = tree.GetVertex(v)->GetTransitions();
+        const auto& transitions = nfa_graph.GetVertex(v)->GetTransitions();
        if (transitions.count(symbol)) {
          const auto& s = transitions.at(symbol);
          result.insert(s.begin(), s.end());
@ -248,9 +135,9 @@ NFATree DeleteTransitionsByOneLetter(NFATree&& tree) {
    auto v = i.second;
    for (auto i: s) {
-      if (tree.GetVertex(i)->IsFinal())
+      if (nfa_graph.GetVertex(i)->IsFinal())
        result_tree.GetVertex(v)->SetFinal(true);
-      if (tree.GetVertex(i)->IsStart())
+      if (nfa_graph.GetVertex(i)->IsStart())
        result_tree.GetVertex(v)->SetStart(true);
    }
  }
@ -258,31 +145,25 @@ NFATree DeleteTransitionsByOneLetter(NFATree&& tree) {
  return result_tree;
 }
-DFAGraph NFATreeToDFAGraph(NFATree&& tree) {
+DFAGraph NFAGraphToDFAGraph(NFAGraph&& nfa_graph) {
-  /*
+  nfa_graph = DeleteTransitionsByOneLetter(DeleteEpsilonTransitions(AddAllPossibleStartFinal(
-  tree = AddAllEpsilonTransitions(std::move(tree));
+      AddAllEpsilonTransitions(std::move(nfa_graph)))));
  tree = AddAllPossibleStartFilnal(std::move(tree));
  tree = DeleteEpsilonTransitions(std::move(tree));
  tree = DeleteTransitionsByOneLetter(std::move(tree));
  */
  tree = DeleteTransitionsByOneLetter(DeleteEpsilonTransitions(AddAllPossibleStartFilnal(
                  AddAllEpsilonTransitions(std::move(tree)))));
-  const int n = tree.GetCountVertexes();
+  const int n = nfa_graph.GetCountVertexes();
  DFAGraph result;
  std::map<int, int> number_vertex_in_DFA;
  for (int i = 0; i < n; ++i) {
-    if (!tree.GetVertex(i)) continue;
+    if (!nfa_graph.GetVertex(i)) continue;
    number_vertex_in_DFA[i] = result.AddNewVertex();
  }
  for (int i = 0; i < n; ++i) {
-    if (!tree.GetVertex(i)) continue;
+    if (!nfa_graph.GetVertex(i)) continue;
-    if (tree.GetVertex(i)->IsFinal())
+    if (nfa_graph.GetVertex(i)->IsFinal())
      result.GetVertex(number_vertex_in_DFA[i])->SetFinal(true);
-    if (tree.GetVertex(i)->IsStart())
+    if (nfa_graph.GetVertex(i)->IsStart())
      result.GetVertex(number_vertex_in_DFA[i])->SetStart(true);
-    const auto& transitions = tree.GetVertex(i)->GetTransitions();
+    const auto& transitions = nfa_graph.GetVertex(i)->GetTransitions();
    for (const auto& t: transitions) {
      if (t.second.size() != 1) throw std::logic_error("");
      result.GetVertex(number_vertex_in_DFA[i])->AddEdge(t.first, *t.second.begin());      
--- a/src/converters/RegularToNFA.cpp
+++ b/src/converters/RegularToNFA.cpp
@ -1,7 +1,6 @@
 #include "converters/RegularToNFA.hpp"
 #include "regular/RegularTree.hpp"
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 #include <iostream>
 using namespace NFA;
 using namespace regular;
@ -13,8 +12,8 @@ struct do_nothing_deleter{
 };
 template<typename deleter>
-NFATree RegularToNFA(std::unique_ptr<Node, deleter> node) {
+NFAGraph RegularToNFA(std::unique_ptr<Node, deleter> node) {
-  NFATree result;
+  NFAGraph result;
  if (node->type == Node::Type::Word) {
    auto end = result.AddNewVertex();
    auto start = end;
@ -80,7 +79,7 @@ NFATree RegularToNFA(std::unique_ptr<Node, deleter> node) {
 }
 namespace converters {
-NFATree RegularToNFA(RegularTree&& tree) {
+NFAGraph RegularToNFAGraph(RegularTree&& tree) {
  const Node& root = tree.GetNode();
  return RegularToNFA(std::unique_ptr<Node,
                      do_nothing_deleter>(&const_cast<Node&>(tree.GetNode())));
--- a/src/main.cpp
+++ b/src/main.cpp
@ -16,17 +16,17 @@ using namespace converters;
 int main() {
  {
    RegularTree r("a*");
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    DFA_graph.Print();
    std::string reg = DFAGraphToRegular(std::move(DFA_graph));
    r = RegularTree(reg);
-    NFA_tree = RegularToNFA(std::move(r));
+    NFA_tree = RegularToNFAGraph(std::move(r));
-    DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    DFA_graph.Print();
  }
@ -36,16 +36,16 @@ int main() {
  {
    RegularTree r("a+");
    r.Print();
-    NFA::NFATree NFA_tree = converters::RegularToNFA(std::move(r));
+    NFA::NFAGraph NFA_tree = converters::RegularToNFAGraph(std::move(r));
    NFA_tree.Print();
-    DFA::DFAGraph DFA_graph = converters::NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA::DFAGraph DFA_graph = converters::NFAGraphToDFAGraph(std::move(NFA_tree));
    DFA_graph.Print();
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    DFA_graph.Print();
  }
  return 0;
-  NFA::NFATree tree;
+  NFA::NFAGraph tree;
  const int N = 10;
  int a[N];
@ -110,7 +110,7 @@ int main() {
  tree.GetVertex(a[3])->SetFinal(true);
  tree.GetVertex(a[4])->SetFinal(true);
-  DFA::DFAGraph res = converters::NFATreeToDFAGraph(std::move(tree));
+  DFA::DFAGraph res = converters::NFAGraphToDFAGraph(std::move(tree));
  // FDFA::FDFAGraph res2 = converters::DFAGraphToFDFAGraph(std::move(res), {'a', 'b'});
  // res2.Print();
@ -119,7 +119,7 @@ int main() {
  // res = converters::DFAGraphToFDFAGraph(std::move(res), {'a', 'b'});
-  res = converters::DFAToMinDFA(std::move(res));
+  res = converters::DFAGraphToMinDFAGraph(std::move(res));
  res.Print();
@ -163,7 +163,7 @@ int main() {
  RegularTree reg_tree(str);
  reg_tree.Print();
-  auto NFA_tree = converters::RegularToNFA(std::move(reg_tree));
+  auto NFA_tree = converters::RegularToNFAGraph(std::move(reg_tree));
  std::cout << std::endl;
--- a/tests/DFAToRegular/DFAToRegular.cpp
+++ b/tests/DFAToRegular/DFAToRegular.cpp
@ -17,16 +17,16 @@ extern std::string GenerateRandomString(std::vector<char> alphabet, size_t len);
 TEST(DFA_to_regular, a_star) {
  RegularTree r("a*");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  std::string reg = DFAGraphToRegular(std::move(DFA_graph));
  r = RegularTree(reg);
-  NFA_tree = RegularToNFA(std::move(r));
+  NFA_tree = RegularToNFAGraph(std::move(r));
-  DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  std::string s = "";
@ -40,16 +40,16 @@ TEST(DFA_to_regular, a_plus) {
  std::string regulars[] = {"a+", "(a)+", "(a+)"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string reg = DFAGraphToRegular(std::move(DFA_graph));
    r = RegularTree(reg);
-    NFA_tree = RegularToNFA(std::move(r));
+    NFA_tree = RegularToNFAGraph(std::move(r));
-    DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string s = "";
    ASSERT_EQ(DFA_graph.Accepted(s), false);
@ -65,16 +65,16 @@ TEST(DFA_to_regular, abc) {
  std::string regulars[] = {"abc"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string reg = DFAGraphToRegular(std::move(DFA_graph));
    r = RegularTree(reg);
-    NFA_tree = RegularToNFA(std::move(r));
+    NFA_tree = RegularToNFAGraph(std::move(r));
-    DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    ASSERT_EQ(DFA_graph.Accepted("abc"), true);
    for (int i = 0; i < 1000; ++i) {
@ -89,16 +89,16 @@ TEST(DFA_to_regular, a_or_b_or_c) {
  std::string regulars[] = {};
  for (const auto& regular: regulars) {
    RegularTree r("a|b|c");
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string reg = DFAGraphToRegular(std::move(DFA_graph));
    r = RegularTree(reg);
-    NFA_tree = RegularToNFA(std::move(r));
+    NFA_tree = RegularToNFAGraph(std::move(r));
-    DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    ASSERT_EQ(DFA_graph.Accepted("a"), true);
    ASSERT_EQ(DFA_graph.Accepted("b"), true);
@ -117,16 +117,16 @@ TEST(DFA_to_regular, a_star_or_b_star_or_c_star) {
  std::string regulars[] = {"a*|b*|c*", "(a*)|(b*|c*)", "(a*|b*|c*)", "((a*)|(b*)|(c*))"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string reg = DFAGraphToRegular(std::move(DFA_graph));
    r = RegularTree(reg);
-    NFA_tree = RegularToNFA(std::move(r));
+    NFA_tree = RegularToNFAGraph(std::move(r));
-    DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    auto check = [](const std::string str) {
      std::set<char> s(str.begin(), str.end());
@ -151,16 +151,16 @@ TEST(DFA_to_regular, a_star_or_b_star_or_c_star) {
 TEST(DFA_to_regular, _a_star_or_b_star_or_c_star_plus) {
  RegularTree r("(a*|b*|c*)+");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  std::string reg = DFAGraphToRegular(std::move(DFA_graph));
  r = RegularTree(reg);
-  NFA_tree = RegularToNFA(std::move(r));
+  NFA_tree = RegularToNFAGraph(std::move(r));
-  DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  auto check = [](const std::string str) {
    std::set<char> s(str.begin(), str.end());
@ -177,16 +177,16 @@ TEST(DFA_to_regular, _a_star_or_b_star_or_c_star_plus) {
 TEST(DFA_to_regular, _a_or_b_or_c_star_plus) {
  RegularTree r("(a|b|c*)+");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  std::string reg = DFAGraphToRegular(std::move(DFA_graph));
  r = RegularTree(reg);
-  NFA_tree = RegularToNFA(std::move(r));
+  NFA_tree = RegularToNFAGraph(std::move(r));
-  DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  auto check = [](const std::string str) {
    std::set<char> s(str.begin(), str.end());
--- a/tests/NFAToDFA/check_equivalence.cpp
+++ b/tests/NFAToDFA/check_equivalence.cpp
@ -1,7 +1,7 @@
 #include <gtest/gtest.h>
 #include <random>
 #include "DFA/DFAGraph.hpp"
-#include "NFA/NFATree.hpp"
+#include "NFA/NFAGraph.hpp"
 #include "converters/NFAToDFA.hpp"
 using namespace NFA;
@ -19,7 +19,7 @@ std::string GenerateRandomString(std::vector<char> alphabet, size_t len) {
 }
 TEST(check_equivalence_NFA_to_DFA, 1) {
-  NFA::NFATree tree;
+  NFA::NFAGraph tree;
  const int N = 10;
  int a[N];
@ -34,7 +34,7 @@ TEST(check_equivalence_NFA_to_DFA, 1) {
  tree.GetVertex(a[2])->SetFinal(true);
  tree.GetVertex(a[3])->SetFinal(true);
-  DFA::DFAGraph res = converters::NFATreeToDFAGraph(std::move(tree));
+  DFA::DFAGraph res = converters::NFAGraphToDFAGraph(std::move(tree));
  EXPECT_FALSE(res.Accepted(""));
  EXPECT_TRUE(res.Accepted("a"));
@ -46,7 +46,7 @@ TEST(check_equivalence_NFA_to_DFA, 1) {
 }
 TEST(check_equivalence_NFA_to_DFA, 2) {
-  NFA::NFATree tree;
+  NFA::NFAGraph tree;
  const int N = 10;
  int a[N];
@ -62,7 +62,7 @@ TEST(check_equivalence_NFA_to_DFA, 2) {
  tree.GetVertex(a[1])->SetFinal(true);
  tree.GetVertex(a[2])->SetFinal(true);
-  DFA::DFAGraph res = converters::NFATreeToDFAGraph(std::move(tree));
+  DFA::DFAGraph res = converters::NFAGraphToDFAGraph(std::move(tree));
  auto check = [](const std::string& str) {
    if (str.size() > 0) {
--- a/tests/regularToDFA/regularToDFA.cpp
+++ b/tests/regularToDFA/regularToDFA.cpp
@ -16,9 +16,9 @@ extern std::string GenerateRandomString(std::vector<char> alphabet, size_t len);
 TEST(regular_to_DFA, a_star) {
  RegularTree r("a*");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  std::string s = "";
  for (int i = 0; i < 100; ++i) {
@ -31,9 +31,9 @@ TEST(regular_to_DFA, a_plus) {
  std::string regulars[] = {"a+", "(a)+", "(a+)"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    std::string s = "";
    ASSERT_EQ(DFA_graph.Accepted(s), false);
@ -49,9 +49,9 @@ TEST(regular_to_DFA, abc) {
  std::string regulars[] = {"abc"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    ASSERT_EQ(DFA_graph.Accepted("abc"), true);
    for (int i = 0; i < 1000; ++i) {
@ -66,9 +66,9 @@ TEST(regular_to_DFA, a_or_b_or_c) {
  std::string regulars[] = {};
  for (const auto& regular: regulars) {
    RegularTree r("a|b|c");
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    ASSERT_EQ(DFA_graph.Accepted("a"), true);
    ASSERT_EQ(DFA_graph.Accepted("b"), true);
@ -87,9 +87,9 @@ TEST(regular_to_DFA, a_star_or_b_star_or_c_star) {
  std::string regulars[] = {"a*|b*|c*", "(a*)|(b*|c*)", "(a*|b*|c*)", "((a*)|(b*)|(c*))"};
  for (const auto& regular: regulars) {
    RegularTree r(regular);
-    NFATree NFA_tree = RegularToNFA(std::move(r));
+    NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-    DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+    DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-    DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+    DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
    auto check = [](const std::string str) {
      std::set<char> s(str.begin(), str.end());
@ -114,9 +114,9 @@ TEST(regular_to_DFA, a_star_or_b_star_or_c_star) {
 TEST(regular_to_DFA, _a_star_or_b_star_or_c_star_plus) {
  RegularTree r("(a*|b*|c*)+");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  auto check = [](const std::string str) {
    std::set<char> s(str.begin(), str.end());
@ -133,9 +133,9 @@ TEST(regular_to_DFA, _a_star_or_b_star_or_c_star_plus) {
 TEST(regular_to_DFA, _a_or_b_or_c_star_plus) {
  RegularTree r("(a|b|c*)+");
-  NFATree NFA_tree = RegularToNFA(std::move(r));
+  NFAGraph NFA_tree = RegularToNFAGraph(std::move(r));
-  DFAGraph DFA_graph = NFATreeToDFAGraph(std::move(NFA_tree));
+  DFAGraph DFA_graph = NFAGraphToDFAGraph(std::move(NFA_tree));
-  DFA_graph = DFAToMinDFA(std::move(DFA_graph));
+  DFA_graph = DFAGraphToMinDFAGraph(std::move(DFA_graph));
  auto check = [](const std::string str) {
    std::set<char> s(str.begin(), str.end());